Beijing Jiaotong University - China
AUTHOR PROFILE
๐ฌ SUMMARY
Weiwei Cai serves as an Associate Professor at Beijing Jiaotong University, specializing in environmental science and engineering. With a consistent academic and research trajectory, the focus has been directed toward microbial electrochemical systems and their application in sustainable environmental technologies. The expertise spans anaerobic digestion, microbial biofilms, and electron transfer in bioelectrochemical systems. A multidisciplinary approach bridges microbial ecology with applied environmental biotechnology, contributing significantly to wastewater treatment innovations. Academic influence is enhanced through global collaborations and editorial positions in high-impact journals, making Weiwei Cai a well-recognized figure in environmental microbiology and bioelectrochemical research.
๐ EDUCATION
Weiwei Cai holds a PhD in Environmental Science and Engineering from Harbin Institute of Technology and an MSc in Environmental Engineering from Liaoning University. The academic journey began with a BA in Environmental Science at Qufu Normal University and included visiting research at the Chinese Academy of Sciences. Further pedagogical skills were refined with a Postgraduate Certificate in Academic Practice from Lancaster University. Each stage of education strengthened the foundation in both theoretical and applied aspects of environmental engineering, equipping Weiwei Cai with a comprehensive skill set to tackle complex ecological and technological challenges.
๐ซ PROFESSIONAL EXPERIENCE
Since December 2020, Weiwei Cai has been an Associate Professor at the School of Environment, Beijing Jiaotong University. Prior to this role, academic growth included serving as a lecturer and a postdoctoral researcher in municipal and environmental engineering. International exposure was gained through a visiting scholar position at Lancaster University. The professional experience reflects a continuous progression through teaching, collaborative projects, and research leadership. Weiwei Cai has contributed meaningfully to the integration of advanced microbiological and electrochemical technologies into practical environmental solutions, mentoring students and managing interdisciplinary projects with strong institutional and industry ties.
๐ RESEARCH INTEREST
Weiwei Caiโs research is centered on microbial electrochemical behavior, including the mechanisms of microbial redox processes and electron transfer at biofilm-electrode interfaces. Interests extend to ecological and microbiological aspects of biofilms in natural and engineered systems. Work explores how microbial communities interact electrochemically within anaerobic environments to drive energy recovery and waste treatment. By studying both the community structure and metabolic function, the research aims to bridge gaps between microbiology, environmental engineering, and renewable energy systems, contributing to more efficient and sustainable waste-to-energy technologies through bioelectrochemical system innovations.
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AWARD AND HONOR
Weiwei Cai has received multiple accolades recognizing contributions to environmental microbiology and engineering. Notable awards include the First Prize of the Environmental Protection Science and Technology Award and the Haoran Jian Reward from the Chinese Society for Microbiology. A nomination as one of the top ten students at Harbin Institute of Technology and prestigious national scholarships from the Ministry of Education underscore the early academic excellence. These honors highlight not only research innovation but also a sustained commitment to environmental sustainability, scientific advancement, and scholarly excellence in both national and international academic communities.
๐ ๏ธ RESEARCH SKILL
Weiwei Cai possesses advanced skills in microbial community analysis, metagenomics, and electrochemical techniques. Expertise includes electrochemical reactor design, biofilm characterization, and interpretation of electron transfer processes within microbial consortia. Proficiency in environmental microbiology is integrated with system-level understanding of anaerobic digestion and energy recovery technologies. Additional capabilities include statistical modeling, microbial interaction mapping, and performance assessment of microbial electrosynthesis systems. These interdisciplinary skills empower the development of novel wastewater treatment and bioenergy systems, supporting both fundamental insights and practical applications in environmental biotechnology and microbial ecology.
๐ PUBLICATIONS TOP NOTED
Weiwei Cai has published extensively in high-impact journals, including Water Research, iScience, Environmental Research, and Frontiers in Microbiology. Key papers address microbial interactions, methanogenic biofilms, and electro-driven community dynamics in environmental systems. Noteworthy works investigate hydrogen production, community-function linkages, and electron transfer within microbial electrolysis cells. These contributions reveal deep insights into microbial ecology and electrochemistry, driving the understanding of engineered microbial systems. Consistent authorship in interdisciplinary research underlines a leadership role in shaping the field of bioelectrochemical environmental technologies.
Title: Biodiversity and species competition regulate the resilience of microbial biofilm community
Authors: K. Feng, Z. Zhang, W. Cai, W. Liu, M. Xu, H. Yin, A. Wang, Z. He, Y. Deng
Journal: Molecular Ecology, Volume 26, Issue 21, 2017
Title: Accelerated microbial reductive dechlorination of 2,4,6-trichlorophenol by weak electrical stimulation
Authors: X.Q. Lin, Z.L. Li, B. Liang, H.L. Zhai, W.W. Cai, J. Nan, A.J. Wang
Journal: Water Research, Volume 162, 2019
Title: Ubiquity of polystyrene digestion and biodegradation within yellow mealworms, larvae of Tenebrio molitor Linnaeus (Coleoptera: Tenebrionidae)
Authors: S.S. Yang, W.M. Wu, A.M. Brandon, H.Q. Fan, J.P. Receveur, Y. Li, Z.Y. Wang, ...
Journal: Chemosphere, Volume 212, 2018
Title: Microbial electrolysis contribution to anaerobic digestion of waste activated sludge, leading to accelerated methane production
Authors: W. Liu, W. Cai, Z. Guo, L. Wang, C. Yang, C. Varrone, A. Wang
Journal: Renewable Energy, Volume 91, 2016
Title: Soil bacterial quantification approaches coupling with relative abundances reflecting the changes of taxa
Authors: Z. Zhang, Y. Qu, S. Li, K. Feng, S. Wang, W. Cai, Y. Liang, H. Li, M. Xu, H. Yin, ...
Journal: Scientific Reports, Volume 7, Article 4837, 2017
Title: Deterministic assembly and diversity gradient altered the biofilm community performances of bioreactors
Authors: Z. Zhang, Y. Deng, K. Feng, W. Cai, S. Li, H. Yin, M. Xu, D. Ning, Y. Qu
Journal: Environmental Science & Technology, Volume 53, Issue 3, 2019
Title: Biocathodic methanogenic community in an integrated anaerobic digestion and microbial electrolysis system for enhancement of methane production from waste sludge
Authors: W. Cai, W. Liu, C. Yang, L. Wang, B. Liang, S. Thangavel, Z. Guo, A. Wang
Journal: ACS Sustainable Chemistry & Engineering, Volume 4, Issue 9, 2016
Title: Enhanced hydrogen production in microbial electrolysis cell with 3D self-assembly nickel foam-graphene cathode
Authors: W. Cai, W. Liu, J. Han, A. Wang
Journal: Biosensors and Bioelectronics, Volume 80, 2016
๐ CONCLUSION
Weiwei Cai exemplifies academic excellence through interdisciplinary research that connects microbial ecology, environmental engineering, and bioelectrochemical systems. With a commitment to innovation and sustainability, work focuses on resolving global challenges in waste treatment and renewable energy recovery. Leadership in research, international collaborations, and editorial roles underscore the influence on shaping future directions in environmental biotechnology. As technologies evolve, continued contributions are expected to advance both scientific understanding and practical applications, reinforcing Weiwei Caiโs position as a pioneering scholar in microbial environmental systems.